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responsiveness to environmental stimuli such as solvent composition, temperature, light, or electric fields. In this project, we aim to exploit this responsiveness to design multi-layer polymer brush architectures
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—exhibit strong responsiveness to environmental stimuli such as solvent composition, temperature, light, or electric fields. In this project, we aim to exploit this responsiveness to design multi-layer
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-brain function. As such, you will collaborate with an enthusiastic team of PhD students and postdocs from the lab of Mark Verheijen, as well as from other labs of the consortium at the VU and AUMC
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multimodal modeling, interaction design, and adaptive systems. Job requirements We are looking for applicants who have or expect to receive a PhD degree before joining the project. Applications have a relevant
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the Leiden University Medical Center (LUMC). You will work in close cooperation with a postdoc at the Bioelectronics section of the Electrical Engineering faculty at TU Delft. Job requirements You hold a PhD
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/postdoc-molecular-and-cellular-… Requirements Specific Requirements We are looking for a highly motivated, critical, and creative candidate to join our group. The preferred candidate: holds a PhD in
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areas: Hands-on experience in the organic synthesis of polymer electrolytes, including conductivity characterization using EIS. Hands-on experience in implementing advanced solid-state NMR experiments
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inter-satellite links. You will carefully research the current state of the art in operations at a representative number of new satellite operators, and the space industry at large, and benchmark them
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to functionalize metal-free electrodes for selective methane production. Building on our previous work, we seek to enhance the performance of our electrolyzer system — including current density, selectivity, energy
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batteries hold promise for long-duration storage of electrical energy, and aqueous redox flow batteries aim to combine the speed of storing and retrieving energy with the high safety standards and